Calculators + Utilities: Difference between revisions
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** ''Python functions for returning'' '''n''' ''(ref. idx.) &'' '''k''' ''(ext. coeff.) of various NanoFab thin-films at a specified wavelength (dispersion models).'' |
** ''Python functions for returning'' '''n''' ''(ref. idx.) &'' '''k''' ''(ext. coeff.) of various NanoFab thin-films at a specified wavelength (dispersion models).'' |
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=== |
=== Scripts + Programs === |
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==== General Calculators ==== |
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* [https://www.anaconda.com/download/ Anaconda Python] |
* [https://www.anaconda.com/download/ Anaconda Python] |
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** A free Matlab-like IDE and GUI, using the Python language. The '''''Spyder''''' interface is modeled after Matlab. |
** A free Matlab-like IDE and GUI, using the Python language. The '''''Spyder''''' interface is modeled after Matlab. |
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** ''A'' ''versatile online interpreter/calculator, allowing calculations such as "''Volume of 1.5g of Silicon''", "''melting point of SiO2''" or "''520°C in Fahrenheit''".'' |
** ''A'' ''versatile online interpreter/calculator, allowing calculations such as "''Volume of 1.5g of Silicon''", "''melting point of SiO2''" or "''520°C in Fahrenheit''".'' |
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==== Python Scripts ==== |
==== Python Scripts ==== |
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''These scripts are best run in the Spyder IDE, which is easily installed via [https://www.anaconda.com/download/ Anaconda], [http://python-xy.github.io Python(X,Y)], or direct compiling using a command-line package manager.'' |
''These scripts are best run in the Spyder IDE, which is easily installed via [https://www.anaconda.com/download/ Anaconda], [http://python-xy.github.io Python(X,Y)], or direct compiling using a command-line package manager.'' |
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* [[Laser Etch Monitor Simulation in Python|Laser Etch Monitor Simulation in Python]] |
* [[Laser Etch Monitor Simulation in Python|Laser Etch Monitor Simulation in Python]] |
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** Simulate your laser endpoint signal as you dry-etch through a stack of thin-film layers. |
** Simulate your laser endpoint signal as you dry-etch through a stack of thin-film layers. |
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* [https://fiji.sc FIJI] - scientific image anaylsis software |
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** This is just [http://imagej.net/Welcome ImageJ] pre-packaged with many of the most useful plugins |
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** [http://imagej.net/Microscope_Measurement_Tools The Microscope Measurement Tools plugin] allows you to save scaling settings for various microscopes & draw measurements. |
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** There are many [https://imagej.net/Category:Plugins other useful plugins], for particle counting etc. |
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* [http://gwyddion.net Gwyddion] - free analysis software for Atomic Force Microscopes (AFMs) |
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** Sophisticated leveling, slicing, roughness analysis functions etc. |
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** Can open Bruker NanoScope files, from the [[Atomic_Force_Microscope_(Dimension_3100/Nanoscope_IVA)|AFM]] |
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Revision as of 19:13, 11 November 2017
This page lists a few online calculators and utilities that are useful to lab users.
Fabrication Processes & Converters
- Thermal Oxide Calculator (BYU)
- Conversion of Pressure Units (calculatoredge.com)
- Mean Free Path tables (Pfeiffer Vacuum)
Material Parameters
- WebElements: Compounds
- Boiling points of various compounds can tell you how volatile an etch product may be in a reactive ion etch, or whether they need to be wet-etched instead.
- Physical Properties of Semiconductors (Ioffe Institute)
Wet Etching
- Transene Inc. Chemical Compatibility Chart
- A.R. Clawson, "Guide to references on III±V semiconductor chemical etching", 2001
- Enormous review of published wet etches of many semiconductors and alloys. The only thing it's missing is a hyperlinked table of contents.
Refractive Indices
- LuxPop.com
- RefractiveIndex.info
- Filmetrics Inc.
- Ioffe Institute
- nk.py (Demis D. John)
- Python functions for returning n (ref. idx.) & k (ext. coeff.) of various NanoFab thin-films at a specified wavelength (dispersion models).
Scripts + Programs
General Calculators
- Anaconda Python
- A free Matlab-like IDE and GUI, using the Python language. The Spyder interface is modeled after Matlab.
- Includes the scientific Python libraries needed for array math (numpy), plotting (matplotlib), data science (pandas) and many others. Many open-source packages are available to extend capabilities.
- Octave Online Interpreter (online-utility.org)
- A Matlab-like command-line interface, powered by Python Octave.
- Wolfram Alpha
- A versatile online interpreter/calculator, allowing calculations such as "Volume of 1.5g of Silicon", "melting point of SiO2" or "520°C in Fahrenheit".
Python Scripts
These scripts are best run in the Spyder IDE, which is easily installed via Anaconda, Python(X,Y), or direct compiling using a command-line package manager.
- Keithley I-V Sweep
- Sweep voltage and plot current vs. voltage using a Keithley SMU.
- Already installed at the Probe Station in Bay 4, and on the QFI Thermal Microscope (Use Python(X,Y) to run).
- Requires the pyvisa python module.
- QFIScope Thermal Analysis
- Import 2D temperature data from the IR Thermal Microscope (QFI) and plot temperature profiles at user-specified locations.
- Already installed on the QFI Infrared Microscope.
- Laser Etch Monitor Simulation in Python
- Simulate your laser endpoint signal as you dry-etch through a stack of thin-film layers.
Analysis Programs
- FIJI - scientific image anaylsis software
- This is just ImageJ pre-packaged with many of the most useful plugins
- The Microscope Measurement Tools plugin allows you to save scaling settings for various microscopes & draw measurements.
- There are many other useful plugins, for particle counting etc.
- Gwyddion - free analysis software for Atomic Force Microscopes (AFMs)
- Sophisticated leveling, slicing, roughness analysis functions etc.
- Can open Bruker NanoScope files, from the AFM